Radio network relocation

ABSTRACT

There is disclosed a method for serving radio network subsystem relocation from a first radio network controller to a second radio network controller for an established call to a user equipment, comprising transmitting a transmission power control combination index of a radio link established between the user equipment and the first radio network controller to the second radio network controller.

FIELD OF THE INVENTION

The present invention relates to serving radio network subsystemrelocation in a mobile communications system.

BACKGROUND OF THE INVENTION

In the field of mobile communications, it is well know to provide forthe relocation of the network access point of an established call to auser equipment as the user equipment roams in the network.

A TPC (transmission power control) CI (combination index) is an integervalue in the range 0 to 5. Each time a radio link is established, a TPCCI is allocated for the link. A radio link is a connection from a radionetwork controller (RNC) to a user equipment (UE) via a base station.All radio links established via a given base station (Node B) must havethe same TPC CI. If a new radio link is established using a Node B whichhas no previous radio links, then a new non-used TPC CI must beallocated for that Node B.

The UE uses the TPC CI to control the power for different radio links.Radio links from the same Node B are handled as a group from a powercontrol point of view.

Whilst all radio links established via a given Node B have the same TPCCI, the various radio links established through the Node B are uniquelyidentified by a Primary common pilot channel (CPICH) info.

The TPC CI is established between the radio network controller (RNC) andthe user equipment (UE), and it is not known by the base stations. TheTPC CI is always allocated by the RNC that establishes a radio link.

When RNC relocation occurs, the new RNC does not know the TPC CI(s) ofthe radio links that were established by the original RNC, despite thefact that these radio links are transferred to the new RNC.

The TPC CI has a very limited value range, being an integer value in therange 0 to 5. Thus, when a new RNC starts to establish a new radio linkto a new base station/user equipment after relocation it mayaccidentally allocate a TPC CI that is already in use. This creates asituation where the UE has the incorrect power control information. Ifthe new RNC allocates a TPC CI that is already in use by another RNC,then the UE will assume that the new radio link is under the control ofthe same base station as the old radio link(s).

It is an aim of the present invention to provide an improved techniquefor serving radio network subsystem relocation.

SUMMARY OF THE INVENTION

In accordance with one aspect the invention provides a method forserving radio network subsystem relocation from a first radio networkcontroller to a second radio network controller for an established callto a user equipment, comprising transmitting a transmission powercontrol combination index of a radio link established between the userequipment and the first radio network controller to the second radionetwork controller.

The transmission power control combination index may be transmitted in aserving radio network subsystem relocation container. The transmissionpower control combination index may be transmitted on the IU interface.

The step of transmitting a transmission power control combination indexmay further include transmitting primary common pilot channelinformation.

The method may further include the step of allocating a transmissionpower control combination index for a radio link established from thesecond radio network controller to the user equipment.

Each radio link from a radio network controller to a user equipment maybe established via a base station. If the base station for the linkestablished from the second radio network controller to the userequipment is the same as that established for the link between the firstradio network controller and said user equipment, the transport powercontrol combination index received from said first radio networkcontroller may preferably be used by second radio network controller. Ifthe base station for the link established from the second radio networkcontroller to the user equipment is different to that established forthe link between the first radio network controller and said userequipment, the transport power control combination index used by thesecond radio network controller may preferably be different to thatreceived from said first radio network controller.

In a second aspect the invention provides a radio network controlleradapted, on serving radio network subsystem relocation, to receive froma further radio network controller from which a radio link is beingtransferred a transmission power control combination index of the radiolink established between a user equipment and said further radio networkcontroller.

The radio network controller may further be adapted to receive atransmitting primary common pilot channel information in combinationwith the transmission power control combination index.

The radio network controller may further be adapted to allocate atransmission power control combination index for a radio linkestablished from the radio network controller to the user equipment.

Each radio link from a radio network controller to a user equipment maybe established via a base station.

If the base station for the link established from the radio networkcontroller to the user equipment is the same as that established for thelink between the further radio network controller and said userequipment, the transport power control combination index received fromsaid further radio network controller is preferably used by the radionetwork controller. If the base station for the link established fromthe radio network controller to the user equipment is different to thatestablished for the link between the further radio network controllerand said user equipment, the transport power control combination indexused by the radio network controller is preferably different to thatreceived from said further radio network controller.

In a third aspect the invention provides a radio network controlleradapted, on serving radio network subsystem relocation, to transmit to afurther radio network controller to which a radio link is to betransferred a transmission power control combination index of the radiolink established between a user equipment and said radio networkcontroller.

The radio network controller may be further adapted to transmit aprimary common pilot channel information in combination with thetransmission power control combination index.

In a fourth aspect the invention provides a communication system adaptedfor serving radio network subsystem relocation from a first radionetwork controller to a second radio network controller for anestablished call to a user equipment, comprising means at said firstradio network controller for transmitting a transmission power controlcombination index of a radio link established between the user equipmentand the first radio network controller to the second radio networkcontroller; means at said second radio network controller for receivingsaid transport power control combination index, and means at said secondradio network controller for determining a transmission power controlcombination index for a radio link to the user equipment in dependenceon the received transport power control combination index.

The second radio network controller may be adapted to further determinethe transmission power control combination index in dependence onwhether the radio link is established through the same base station asthe radio link between the first radio network controller and the userequipment.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is now described by way of example with reference to theaccompanying drawings, in which:

FIG. 1 illustrates part of the radio network subsystem in a UMTS system;and

FIG. 2 illustrates the method steps in a preferred embodiment of theinvention.

DESCRIPTION OF PREFERRED EMBODIMENTS

Referring to FIG. 1 there is illustrated an example of elements in aUMTS network architecture for describing an example implementation ofthe invention.

A source radio network controller (SRNC) 10 is connected to at least onebase station, termed a “Node B”, 14 via an interface 22, preferably anIub interface. A target radio network controller (TRNC) 12 is connectedto at least one Node B 26 via an interface 24, again preferably an Iubinterface. The SRNC 10 and the TRNC 12 are interconnected via aninter-RNC interface 20, preferably being the Iur interface. A userequipment (UE) 18 may establish a radio communication with any radionetwork controller via an associated Node B. In the example of FIG. 2,the UE 18 may establish a connection to Node B 14 via a radio link 26,and/or may establish a connection to Node B 16 via a radio link 28. TheUE 18 is representative only, and in practice a plurality of UEs mayestablish radio links.

For the purpose of discussion of an example implementation, the RNC 10initially has an established radio link with the UE 18 via Node B 14.Hence the RNC 10 is identified as the source RNC. The RNC 12 is the RNCto which control of a call is to be transferred to due to roaming of theUE 18. Hence the RNC 12 is identified as the target RNC. Theidentification of the source and target RNCs enables the followingdescription of the operation of the invention to be easily understood.However, it will be apparent that once the control of the call istransferred to a new RNC from an original RNC, the new RNC becomes thesource RNC. Thus in general the invention relates to the transferbetween RNCs, and the terms ‘source’ and ‘target’ should not beconsidered limiting in any way.

The establishment of the original radio link between the SRNC 10 and theUE 18 via the Node B 14 is not described. Establishment techniques forsuch radio links are well known in the art, and the invention does notpropose any modification to such techniques. The invention isindependent of any of the various techniques for establishing theoriginal radio link.

Following the establishment of the radio link between the SRNC 10 andthe UE 18 via the Node B 14, a TPC CI of 1, for example, is determinedfor the established radio link. This is denoted as “TPC CI 1”. Theestablished radio link is uniquely identified by a Primary CPICH Info.This is denoted as “CPICH info 1” for the established radio link.

A serving radio network subsystem (SRNS) relocation may occur due to theroaming of the UE 18. In an SRNS relocation, the RRC connectionestablished between the SRNC 10 and the UE 18 via the Node B 14 istransferred completely to the TRNC 12 via the Node B 16. In such case,it is assumed that the UE 18 has roamed into a geographical areasupported by the Node B 16. The techniques by which such relocation iscontrolled are known in the art, and outside the scope of the presentinvention. The invention does not propose any modification or adaptationto such techniques.

As is known in the art, during SRNS relocation an SRNS relocationcontainer is transmitted from the SRNC to the TRNC via an IU interface.In accordance with the invention, the SRNS relocation container ismodified to include an identity of the TPC CI in use for the radio linkfrom the SRNC. This information is provided as a list of Primary CPICHInfo/TPC CI pairs. This information is preferably provided on the IUinterface to the target RNC 12 from the source RNC 10.

Thus the TRNC is provided with the value TPC CI 1 from the SRNC. The UEitself is already aware of the value TPC CI 1. The TRNC may thenestablish a new radio link, and is guaranteed not to establish a linkbased on a TPC CI value of TPC CI 1.

A radio link must always exist in the TRNC at the time the SRNCrelocation occurs. As at the time of the SRNS relocation the TRNC has atleast one established radio link, then the TPC CI or TPC CIs for theradio link to the UE 18 is that or are those of the established radiolink. On completion of the relocation, if the TRNC establishes new radiolinks for a user now connected through the TRNC, in accordance with theembodiments of the invention the TPC CI(s) of the original SRNC isknown. As such, in establishing any new radio links, the TPC CI(s) ofthe original SRNC can be taken into account by the TRNC, to ensure thereis no conflict.

The technique of the present invention is summarised by the flow chartof FIG. 2. In a step 200, a radio link has been established from theSRNC 10 to the UE 18 via the Node B 14. In a step 202 a SRNS relocationis initiated, to transfer the network access point for the UE 18 fromNode B 14 to Node B 16. In accordance with the invention, in a step 204a TPC CI and Primary CPICH information pair is sent from the SRNC 10 tothe TRNC 12 for each transferred radio link.

In SRNC relocation the target radio network controller always has anestablished radio link. The TPC CI is determined, however, to bedifferent to the TPC CI of the radio link transferred from the SRNC ifthat radio link is supported by a different base station.

If in step 206 it is determined that the radio link to the UE 18 fromthe TRNC 12 uses the same base station as was previously used, then thesame TPC CI is used for that link, as that TPC CI is used for all radiolinks through that base station, as denoted by step 210. If in step 206it is determined that the radio link is established through a differentbase station, then the TRNC must establish a new TPC CI, i.e. differentto that of the other base station, for the radio link, as denoted bystep 208.

It should be noted that in the foregoing description, which relates toan exemplary embodiment, reference is made to the primary CPICHinformation being used. However, the invention and its embodiments isnot limited to such use. For example, the secondary CPICH informationmay alternatively be used.

The invention has been described by way of example with reference to aparticular embodiment. The invention is not, however, limited to anyspecifics of the described embodiments. The scope of the invention isdefined by the appended claims.

1. A method, comprising: serving a radio network subsystem relocationfrom a first radio network controller to a second radio networkcontroller for an established call to a user equipment; and transmittinga transmission power control combination index of a radio link,established between the user equipment and the first radio networkcontroller, to the second radio network controller.
 2. The methodaccording to claim 1, wherein the transmitting comprises transmittingthe transmission power control combination index in a serving radionetwork subsystem relocation container.
 3. The method according to claim1, wherein the transmitting comprises transmitting the transmissionpower control combination index is on an interface unit.
 4. The methodaccording to claim 1, wherein the transmitting comprises transmittingprimary common pilot channel information.
 5. The method according toclaim 1, further comprising: allocating the transmission power controlcombination index for a the radio link established from the second radionetwork controller to the user equipment.
 6. The method according toclaim 5, wherein the serving comprises establishing each radio link fromat least one of the first radio network controller and the second radionetwork controller the user equipment via a base station.
 7. The methodaccording to claim 6, wherein the allocating further comprises using thetransmission power control combination index received from the firstradio network controller by the second radio network controller, whenthe base station for the radio link established from the second radionetwork controller and te-the user equipment is the same as the basestation established for the radio link between the first radio networkcontroller and the user equipment.
 8. The method according to claim 6,wherein the allocating further comprises using a different transmissionpower control combination index than received from the first radionetwork controller by the second radio network controller, when the basestation for the radio link established from the second radio networkcontroller and the user equipment is different from the base stationestablished for the radio link between the first radio networkcontroller and the user equipment.
 9. An apparatus configured, onserving a radio network subsystem relocation, to receive from a networkentity configured to transfer a radio link, a transmission power controlcombination index of the radio link established between user equipmentand the network entity.
 10. The apparatus according to claim 9, furtherconfigured to receive primary common pilot channel information incombination with the transmission power control combination index. 11.The apparatus according to claim 9, further configured to allocate atransmission power control combination index for a radio linkestablished from the apparatus to the user equipment.
 12. The apparatusaccording to claim 11, wherein the apparatus is configured to establisheach radio link to the user equipment via a base station.
 13. Theapparatus according to claim 12, wherein the transmission power controlcombination index received from the network entity is used by theapparatus, when the base station for the radio link established from theapparatus to the user equipment is the same as the base stationestablished for the radio link between the network entity and the userequipment.
 14. The apparatus according to claim 12, wherein thetransmission power control combination index used by the apparatus isdifferent from that received from the network entity, when the basestation for the radio link established from the radio network controllerto the user equipment is different from the base station established forthe radio link between the further radio network controller and the userequipment.
 15. An apparatus configured, on serving a radio networksubsystem relocation, to transmit to a network entity configured toreceive a radio link, a transmission power control combination index ofa radio link established between user equipment and the apparatus. 16.The apparatus according to claim 15, further configured to transmitprimary common pilot channel information in combination with thetransmission power control combination index.
 17. A communicationsystem, comprising: a first radio network controller configured totransmit on serving a radio network subsystem relocation from the firstradio network controller to a second radio network controller for anestablished call to user equipment, a transmission power controlcombination index of a radio link established between the user equipmentand the first radio network controllers, to the second radio networkcontroller; wherein the second radio network controller is configured toreceive the transmission power control combination index.
 18. Thecommunication system according to claim 17, wherein the second radionetwork controller is configured to determine the transmission powercontrol combination index in dependence on whether the radio link isestablished through a base station which is the same as a radio linkbetween the first radio network controller and the user equipment. 19.The communication system of claim 17, wherein said second radio networkcontroller is configured to determine a transmission power controlcombination index for a radio link to the user equipment in dependenceon the received transmission power control combination index.
 20. Aradio network controller, comprising: a receiver configured, on servinga radio network subsystem relocation, to receive from a further radionetwork controller a transmission power control combination index of aradio link established between user equipment and the further radionetwork controller.
 21. The radio network controller according to claim20, wherein the receiver is further configured to receive a transmittingprimary common pilot channel information in combination with thetransmission power control combination index.
 22. The radio networkcontroller according to claim 20, wherein the radio network controlleris further configured to allocate a transmission power controlcombination index for a radio link established from the radio networkcontroller to the user equipment.
 23. The radio network controlleraccording to claim 22, wherein the radio network controller isconfigured to establish each radio link to the a user equipment via abase station.
 24. The radio network controller according to claim 23,wherein the transmission power control combination index received fromthe further radio network controller is used by the radio networkcontroller, when the base station for the radio link established fromthe radio network controller to the user equipment is the same as a basestation established for a radio link between the further radio networkcontroller and the user equipment.
 25. The radio network controlleraccording to claim 23, wherein the transmission power controlcombination index used by the radio network controller is different fromthat received from the further radio network controller, when the basestation for the radio link established from the radio network controllerto the user equipment is different from a base station established for aradio link between the further radio network controller and the userequipment.
 26. A radio network controller, comprising: a transmitterconfigured, on serving a radio network subsystem relocation, to transmitto a further radio network controller a transmission power controlcombination index of a radio link established between user equipment andthe radio network controller.
 27. The radio network controller accordingto claim 26, wherein the transmitter is further configured to transmit aprimary common pilot channel information in combination with thetransmission power control combination index.
 28. A communicationsystem, comprising: a first radio network controller comprisingtransmission means for transmitting, on serving a radio networksubsystem relocation from the first radio network controller to a secondradio network controller for an established call to user equipment, atransmission power control combination index of a radio link establishedbetween the user equipment and the first radio network controller, tothe second radio network controller.